/*
 * Z80SIM  -  a Z80-CPU simulator
 *
 * Copyright (C) 1987-2017 by Udo Munk
 *
 * This modul of the simulator contains a simple terminal I/O
 * simulation as an example.
 *
 * History:
 * 28-SEP-87 Development on TARGON/35 with AT&T Unix System V.3
 * 11-JAN-89 Release 1.1
 * 08-FEB-89 Release 1.2
 * 13-MAR-89 Release 1.3
 * 09-FEB-90 Release 1.4  Ported to TARGON/31 M10/30
 * 20-DEC-90 Release 1.5  Ported to COHERENT 3.0
 * 10-JUN-92 Release 1.6  long casting problem solved with COHERENT 3.2
 *			  and some optimisation
 * 25-JUN-92 Release 1.7  comments in english and ported to COHERENT 4.0
 * 02-OCT-06 Release 1.8  modified to compile on modern POSIX OS's
 * 18-NOV-06 Release 1.9  modified to work with CP/M sources
 * 08-DEC-06 Release 1.10 modified MMU for working with CP/NET
 * 17-DEC-06 Release 1.11 TCP/IP sockets for CP/NET
 * 25-DEC-06 Release 1.12 CPU speed option
 * 19-FEB-07 Release 1.13 various improvements
 * 06-OCT-07 Release 1.14 bug fixes and improvements
 * 06-AUG-08 Release 1.15 many improvements and Windows support via Cygwin
 * 25-AUG-08 Release 1.16 console status I/O loop detection and line discipline
 * 20-OCT-08 Release 1.17 frontpanel integrated and Altair/IMSAI emulations
 * 24-JAN-14 Release 1.18 bug fixes and improvements
 * 02-MAR-14 Release 1.19 source cleanup and improvements
 * 14-MAR-14 Release 1.20 added Tarbell SD FDC and printer port to Altair
 * 29-MAR-14 Release 1.21 many improvements
 * 29-MAY-14 Release 1.22 improved networking and bugfixes
 * 04-JUN-14 Release 1.23 added 8080 emulation
 * 06-SEP-14 Release 1.24 bugfixes and improvements
 * 18-FEB-15 Release 1.25 bugfixes, improvements, added Cromemco Z-1
 * 18-APR-15 Release 1.26 bugfixes and improvements
 * 18-JAN-16 Release 1.27 bugfixes and improvements
 * 05-MAY-16 Release 1.28 improved usability
 * 20-NOV-16 Release 1.29 bugfixes and improvements
 * 15-DEC-16 Release 1.30 improved memory management, machine cycle correct CPUs
 * 28-DEC-16 Release 1.31 improved memory management, reimplemented MMUs
 * 12-JAN-17 Release 1.32 improved configurations, front panel, added IMSAI VIO
 * 07-FEB-17 Release 1.33 bugfixes, improvements, better front panels
 * 16-MAR-17 Release 1.34 improvements, added ProcTec VDM-1
 * 03-AUG-17 Release 1.35 added UNIX sockets, bugfixes, improvements
 * 21-DEC-17 Release 1.36 bugfixes and improvements
 */

/*
 *	Sample I/O-handler
 *
 *	Port 1 input:	reads the next byte from stdin
 *	Port 1 output:	writes the byte to stdout
 *
 *	All the other ports are connected to an I/O-trap handler,
 *	I/O to this ports stops the simulation with an I/O error.
 */

#include <stdio.h>
#include "sim.h"
#include "simglb.h"

/*
 *	Forward declarations of the I/O functions
 *	for all port addresses.
 */
static BYTE io_trap_in(void);
static void io_trap_out(BYTE);
static BYTE p001_in(void);
static void p001_out(BYTE);

/*
 *	This array contains function pointers for every input
 *	I/O port (0 - 255), to do the required I/O.
 */
static BYTE (*port_in[256]) (void) = {
	 io_trap_in,		/* port 0 */
	 p001_in		/* port 1 */
};

/*
 *	This array contains function pointers for every output
 *	I/O port (0 - 255), to do the required I/O.
 */
static void (*port_out[256]) (BYTE) = {
	io_trap_out,		/* port 0 */
	p001_out		/* port 1 */
};

/*
 *	This function is to initiate the I/O devices.
 *	It will be called from the CPU simulation before
 *	any operation with the Z80 is possible.
 *
 *	In this sample I/O simulation we initialise all
 *	unused port with an error trap handler, so that
 *	simulation stops at I/O on the unused ports.
 *
 *	See the I/O simulation of CP/M for a more complex
 *	example.
 */
void init_io(void)
{
	register int i;

	for (i = 2; i <= 255; i++) {
		port_in[i] = io_trap_in;
		port_out[i] = io_trap_out;
	}
}

/*
 *	This function is to stop the I/O devices. It is
 *	called from the CPU simulation on exit.
 *
 *	Nothing to do here, see the I/O simulation
 *	of CP/M for a more complex example.
 */
void exit_io(void)
{
}

/*
 *	This is the main handler for all IN op-codes,
 *	called by the simulator. It calls the input
 *	function for port addr.
 */
BYTE io_in(BYTE addrl, BYTE addrh)
{
	addrh = addrh;	/* to avoid compiler warning */
	io_port = addrl;
	return((*port_in[addrl]) ());
}

/*
 *	This is the main handler for all OUT op-codes,
 *	called by the simulator. It calls the output
 *	function for port addr.
 */
void io_out(BYTE addrl, BYTE addrh, BYTE data)
{
	addrh = addrh;	/* to avoid compiler warning */
	io_port = addrl;
	(*port_out[addrl]) (data);
}

/*
 *	I/O input trap function
 *	This function should be added into all unused
 *	entries of the input port array. It stops the
 *	emulation with an I/O error.
 */
static BYTE io_trap_in(void)
{
	if (i_flag) {
		cpu_error = IOTRAPIN;
		cpu_state = STOPPED;
	}
	return((BYTE) 0xff);
}

/*
 *	I/O trap function
 *	This function should be added into all unused
 *	entries of the output port array. It stops the
 *	emulation with an I/O error.
 */
static void io_trap_out(BYTE data)
{
	data++; /* to avoid compiler warning */

	if (i_flag) {
		cpu_error = IOTRAPOUT;
		cpu_state = STOPPED;
	}
}

/*
 *	I/O function port 1 read:
 *	Read next byte from stdin.
 */
static BYTE p001_in(void)
{
	return((BYTE) getchar());
}

/*
 *	I/O function port 1 write:
 *	Write byte to stdout and flush the output.
 */
static void p001_out(BYTE data)
{
	putchar((int) data);
	fflush(stdout);
}
